The nexus between water, exergy, and economics in an optimal integrated desalination system with two configurations and four operation modes

The nexus between water, exergy, and economics in an optimal integrated desalination system with two configurations and four operation modes

[Display omitted] •A novel integrated system was proposed in 2 configurations and 4 operating modes.•Four new water-exergy nexus-based evaluation criteria were employed.•Some performance criteria improved by 3.7 times after many-objective optimization.•The robust double-compressor configuration is r...

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Bibliographic Details
Published in:Energy conversion and management Vol. 251; p. 114966
Main Authors: Tayerani Charmchi, Amir Saman, Ifaei, Pouya, Yoo, ChangKyoo
Format: Journal Article
Language:English
Published: Oxford Elsevier Ltd 01-01-2022
Elsevier Science Ltd
Subjects:
Absorption heat pump
Climate
Climate change
Cold weather
Configurations
Desalination
Drinking water
Economic models
Economics
Exergoeconomic analysis
Exergy
Genetic algorithms
Heat exchangers
Heat pumps
Hybrid systems
Iterative methods
Lithium
Many-objective optimization
Mathematical models
Mechanical components
Multi-effect evaporation desalination
Multiple objective analysis
Optimization
Robustness (mathematics)
Sensitivity analysis
Sorting algorithms
Thermodynamics
Water-exergy nexus
Water-exergy nexus
Multi-effect evaporation desalination
Climate change
Absorption heat pump
Many-objective optimization
Exergoeconomic analysis
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Summary:[Display omitted] •A novel integrated system was proposed in 2 configurations and 4 operating modes.•Four new water-exergy nexus-based evaluation criteria were employed.•Some performance criteria improved by 3.7 times after many-objective optimization.•The robust double-compressor configuration is recommended for hot and dry regions.•The single-compressor configuration is more adaptable to environmental fluctuations. Numerous integrated desalination systems have been proposed to satisfy the growing global demand for freshwater. However, the responses of various optimal configurations have rarely been subject to advanced combined analyses. Here, a parallel-feed multi-effect evaporative desalination unit is integrated with a series double-effect water-lithium bromide absorption heat pump using thermo-mechanical components to propose a novel flexible system. The proposed hybrid multi-modal cooling-heating-desalination system can be configured as a single compressor or a double-compressor. Both configurations can operate in four modes, producing chilled and tap water (mode I); hot and tap water (mode II); tap water (mode III); or chilled, hot, and tap water (mode IV). The energy, exergy, and economics of the proposed system are modeled in an iterative nonlinear thermo-mathematical program. The base models are compared using exergoeconomic and novel water-exergy nexus-based evaluation criteria, their sensitivity is examined under each operation mode, and the optimal configurations are determined by solving a many-objective optimization model. A non-dominated sorting genetic algorithm generation III is employed to solve the many-objective optimization problem. Exergy for water, exergy efficiency, and total product exergy costs, respectively, improved by 3, 3.6, and 3.7 times, while total annual costs decreased by 17.8–50.3% after optimization. Considering the nexus between exergy, water, and economics, the optimal single compressor configuration was recommended for hot and dry regions and the robust double-compressor configuration was recommended for cold climates or general trigeneration.
ISSN:0196-8904
1879-2227
DOI:10.1016/j.enconman.2021.114966